Oung
Ayewin Oung, Maidenhead GB
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20130326282 | DEBUG IN A MULTICORE ARCHITECTURE - A method of monitoring thread execution within a multicore processor architecture which comprises a plurality of interconnected processor elements for processing the threads, the method comprising receiving a plurality of thread parameter indicators of one or more parameters relating to the function and/or identity and/or execution location of a thread or threads, comparing at least one of the thread parameter indicators with a first plurality of predefined criteria each representative of an indicator of interest, and generating an output consequential upon thread parameter indicators which have been identified to be of interest as a result of the said comparison. | 12-05-2013 |
20130326283 | DEBUG IN A MULTICORE ARCHITECTURE - A method of monitoring thread execution within a multicore processor architecture which comprises a plurality of interconnected processor elements for processing the threads, the method comprising receiving a plurality of thread parameter indicators of one or more parameters relating to the function and/or identity and/or execution location of a thread or threads, comparing at least one of the thread parameter indicators with a first plurality of predefined criteria each representative of an indicator of interest, and generating an output consequential upon thread parameter indicators which have been identified to be of interest as a result of the said comparison. | 12-05-2013 |
Harry Oung, Cherry Hill, NJ US
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20080303673 | DYNAMIC EAS DETECTION SYSTEM AND METHOD - This invention relates to dynamically controlled, electronic article surveillance (EAS) systems whereby an array of antenna elements is digitally phased and actively driven for concurrent transmission, and digitally phased and combined in the receiver unit to improve security tag detection. In particular, the individual frequency and phase of the plurality of the transmit/receive signals are rapidly varied to allow for automated manipulation (steering) of the transmit field pattern and receive field sensitivity. It is the object of this invention to achieve the following features via means of digital phasing and dynamic computer control: sufficient far-field cancellation, null-free detection and uncompromised detection performance regardless of tag's orientation. | 12-11-2008 |
20080309491 | Comprehensive Theft Security System - An antitheft security system and method using networked pedestals for monitoring, and reporting data relating to, merchandise, having security tags coupled to or embedded therein, leaving or entering a business establishment and alerting business establishment personnel when a theft may be occurring. The system and method collect and communicate security tag data and associated peripheral device data to a remote server for analysis. | 12-18-2008 |
20090261976 | PHASE COUPLER FOR ROTATING FIELDS - This invention relates to dynamically controlled, electronic article surveillance (EAS) systems whereby an array of antenna elements is digitally phased and actively driven for concurrent transmission, and digitally phased and combined in the receiver unit to improve detection. In particular, the individual frequency and phase of the plurality of the transmit/receive signals are rapidly varied to allow for automated manipulation (steering) of the transmit field pattern and receive field sensitivity. The invention achieves the following features via means of digital phasing and dynamic computer control: sufficient far-field cancellation, null-free detection and uncompromised detection performance regardless of tag's orientation while using single transmission drivers to drive entire antenna structures, whether loop antenna or ferrite core antenna, using a phase coupler, thereby allowing more efficient system operation or additional features such as deactivator antenna operation. | 10-22-2009 |
Kar Boon Oung, Penang MY
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20130136276 | METHOD AND APPARATUS FOR RECEIVING AND PLAYING A SIGNAL IN A RADIO RECEIVER - A method and apparatus for receiving and playing a signal in a radio receiver to suppress microphonic feedback are provided by alternately pitch shifting a received audio signal. The pitch of the received audio signal is alternately shifted up and then down, repeatedly over successive intervals of the audio signal, to produce a pitch swing signal which is then played over a speaker. The alternating pitch shifting prevents the buildup of regenerative feedback normally caused by acoustic vibrations coupling into the radio receiver. | 05-30-2013 |
Kar Boon Oung, Gelugor MY
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20150071392 | METHOD AND APPARATUS FOR REDUCING FM AUDIO ARTIFACTS IN A RECEIVER - An apparatus and method for reducing FM audio artifacts in a receiver are provided. A direct conversion radio frequency (RF) receiver converts an analog FM signal into a phase shifted digital low IF signal. A digital controller coupled to the analog FM receiver provides adaptive frequency translation for different channel spacing and provides adaptive low IF configuration through the different channel spacing, thereby suppressing audio artifacts. | 03-12-2015 |
Stephen Oung, Toronto CA
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20150028996 | PREAUTHORIZED WEARABLE BIOMETRIC DEVICE, SYSTEM AND METHOD FOR USE THEREOF - Embodiments are directed towards authenticating users using biometric devices. The biometric device may be arranged to capture one or more biometric feature of a user that may be wearing the biometric device such as biometric features that correspond to an electrocardiogram of the user. The user of the biometric device may be authenticated based on one or more biometric features, or a combination thereof. Authenticating the user of the biometric device, may include communicating information that includes biometric features to an authorized authentication device (AAD). When the user is authenticated, the biometric device may be preauthorized for the user. When the preauthorized biometric device senses at least one access point, an authorization signal may be provided to the access point. If the preauthorized biometric device is removed from the user, the biometric device is deauthorized, disabling access to access points by the user. | 01-29-2015 |